Techniques for wireless power charging of chargeable devices such as electric vehicles are provided. An example of a wireless power transmitting apparatus according to the disclosure includes a first coil structure, at least one second coil structure disposed adjacent to the first coil structure, and a transmitter operably and electrically connected to the first coil structure, such that the transmitter is configured to provide an electrical signal to the first coil structure and such that the at least one second coil structure is a parasitic coil structure and such that at least one of the first and the at least one second coil structure is a double-D coil structure.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A wireless power transmitting apparatus for powering or charging an electric vehicle, wireless power transmitting apparatus comprising: a first coil structure; at least one second coil structure disposed adjacent to the first coil structure; and a transmitter operably and electrically connected to the first coil structure, wherein the transmitter is configured to provide an electrical signal to the first coil structure and wherein the at least one second coil structure is a parasitic coil structure, galvanically isolated from the first coil structure, and wherein at least one of the first coil structure and the at least one second coil structure is a double-D coil structure.
2. The wireless power transmitting apparatus of claim 1 wherein the first coil structure is a double-D coil structure.
3. The wireless power transmitting apparatus of claim 2 wherein the at least one second coil structure includes a first circular coplanar parasitic coil disposed in a first area within the double-D coil structure, and a second circular coplanar parasitic coil disposed in a second area within the double-D coil structure.
4. The wireless power transmitting apparatus of claim 3 wherein the first circular coplanar parasitic coil is electrically coupled to a first capacitive element, and the second circular coplanar parasitic coil is electrically coupled to a second capacitive element.
5. The wireless power transmitting apparatus of claim 2 wherein the at least one second coil structure includes a parasitic circular coil disposed around and coplanar with the double-D coil structure.
6. The wireless power transmitting apparatus of claim 5 wherein the parasitic circular coil is electrically coupled to a capacitive element.
7. The wireless power transmitting apparatus of claim 1 wherein the first coil structure includes a circular coil and the at least one second coil structure includes a parasitic double-D coil structure, wherein the circular coil is disposed around the parasitic double-D coil structure.
8. The wireless power transmitting apparatus of claim 7 wherein the parasitic double-D coil structure is electrically coupled to a capacitive element.
9. The wireless power transmitting apparatus of claim 1 wherein the first coil structure includes a double-D coil structure and the at least one second coil structure includes a parasitic double-D coil structure, wherein the parasitic double-D coil structure is disposed in a first area and a second area bounded by the first coil structure.
10. The wireless power transmitting apparatus of claim 9 wherein the parasitic double-D coil structure is electrically coupled to a capacitive element.
11. The wireless power transmitting apparatus of claim 1 wherein the first coil structure is a first planar coil and the at least one second coil structure is at least one second planar coil.
12. The wireless power transmitting apparatus of claim 11 wherein the first coil structure and the at least one second coil structure are coplanar.
13. The wireless power transmitting apparatus of claim 11 wherein the first coil structure is disposed in a first plane and the at least one second coil structure is disposed in a second plane, wherein the first plane and the second plane are different planes.
14. The wireless power transmitting apparatus of claim 11 wherein the first coil structure is disposed on a first planar mounting surface and the at least one second coil structure is disposed on a second planar mounting surface, wherein the first planar mounting surface and the second planar mounting surface are parallel.
15. The wireless power transmitting apparatus of claim 14 wherein the first planar mounting surface and the second planar mounting surface are mechanically adjustable and configured to allow an adjustable displacement between the first coil structure and the at least one second coil structure.
16. A wireless power receiving apparatus, comprising: a first coil structure; at least one second coil structure disposed adjacent to the first coil structure; and a receiver operably and electrically connected to the first coil structure, wherein the first coil structure and the receiver provide a resonant structure configured to wirelessly couple power via a field generated by a wireless power transmitting apparatus, and wherein the at least one second coil structure is a parasitic coil structure, galvanically isolated from the first coil structure, and wherein at least one of the first and the at least one second coil structure is a double-D coil structure.
17. The wireless power receiving apparatus of claim 16 wherein the first coil structure is a double-D coil.
18. The wireless power receiving apparatus of claim 17 wherein the at least one second coil structure includes a first circular coplanar parasitic coil disposed in a first area within the double-D coil, and a second circular coplanar parasitic coil disposed in a second area within the double-D coil.
19. The wireless power receiving apparatus of claim 17 wherein the at least one second coil structure includes a parasitic circular coil disposed around and coplanar with the double-D coil.
20. The wireless power receiving apparatus of claim 16 wherein the first coil structure includes a circular coil and the at least one second coil structure includes a parasitic double-D coil, wherein the circular coil is disposed around the parasitic double-D coil.
21. The wireless power receiving apparatus of claim 16 wherein the first coil structure includes a double-D coil and the at least one second coil structure includes a parasitic double-D coil, wherein the parasitic double-D coil is disposed a first area and a second area bounded by the first coil structure.
22. The wireless power receiving apparatus of claim 16 wherein the first coil structure and the at least one second coil structure are coplanar.
23. The wireless power receiving apparatus of claim 16 wherein the first coil structure and the at least one second coil structure are disposed in different planes.
24. The wireless power receiving apparatus of claim 16 wherein the first coil structure is disposed on a first planar mounting surface and the at least one second coil structure is deposed on a second planar mounting surface, wherein the first planar mounting surface and the second planar mounting surface are mechanically adjustable to allow a change in a relative position of the first coil structure and the at least one second coil structure.
25. A base charging pad in a wireless power transmitting apparatus, the base charging pad comprising: a planar mounting surface; a transmitting coil structure disposed on the planar mounting surface; a side planar mounting assembly disposed parallel to the planar mounting surface; at least one parasitic coil structure disposed on the side planar mounting assembly and galvanically isolated from the transmitting coil structure; and a transmitter operably and electrically connected to the transmitting coil structure, wherein the transmitter is configured to provide an electrical signal to the transmitting coil structure, wherein at least one of the transmitting coil structure and the at least one parasitic coil structure are in a double-D configuration.
26. A method for modifying a relative position of a parasitic coil in a wireless power transmitting apparatus, comprising: determining an electric vehicle charging pad configuration; positioning one or more parasitic coils of the wireless power transmitting apparatus relative to one or more active coils of the wireless power transmitting apparatus based on the electric vehicle charging pad configuration; determining a coupling coefficient; and modifying the relative position of the one or more parasitic coils of the wireless power transmitting apparatus relative to the one or more active coils of the wireless power transmitting apparatus based on the coupling coefficient.
27. The method of claim 26 wherein determining the electric vehicle charging pad configuration includes receiving an electric vehicle charging pad configuration information via a communication link.
28. The method of claim 27 wherein the electric vehicle charging pad configuration information indicates a coil configuration.
29. The method of claim 27 wherein the electric vehicle charging pad configuration information indicates an offset value.
30. The method of claim 26 wherein the one or more parasitic coils of the wireless power transmitting apparatus and the one or more active coils of the wireless power transmitting apparatus are positioned parallel to one another.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
May 19, 2017
July 23, 2019
Browse 5M+ US patents with plain-English claim translations and AI-generated analysis.